We can initially approach the concept of GDP by explaining the terms “Product”, “Domestic” and “Gross” separately (Lequiller and Blades 2014, Chapter 1):
Product: refers to what we are trying to measure, which is the production of goods and services, with no double counting, in a given period, \(t\) and carried out by:
Profit-making enterprises (economists use the alternative term firms)
Non-profit institutions
Goverment bodies
Households
Domestic: indicates that the production to be taken into account is the one that is carried within a certain geographical territory, \(s\), clearly delimited.
Gross: it means that depreciation is not deducted (in the field of economics it is called consumption of fixed capital).
In other words, the decrease in the value of the assets due to physical deterioration, foreseeable wear or accidental damage is not deducted.
Why depreciation is not deducted?
Initially the units in which GDP is measure is in monetary units of a specific currency, \(c\). Therefore \(GDP_{s}^{c}(t)\) means the \(GDP\) of territory \(s\) in a given period \(t\). To make the discussion less abstract we present a plot of \(GDP\) for Colombia, \(s = COL\), expressed in Colombian pesos, \(c = COP\), for the years 1960 to 2019, \(t = 1960, \ldots, 2019\):
# Clean data
gdp_colombia <- wbstats::wb(country = "COL",
indicator = "NY.GDP.MKTP.CN",
startdate = 1960,
enddate = 2019) %>%
tibble::as_tibble() %>%
dplyr::select(date, value) %>%
dplyr::mutate(date = as.double(date),
label_text = stringr::str_glue('Year: {date}
GDP: {value %>% scales::dollar()}'))
# Plot
static_plot <- gdp_colombia %>%
# Data
ggplot2::ggplot(aes(x = date, y =value)) +
# Geoms
ggplot2::geom_point(aes(text = label_text),
shape = 21,
color = "black",
fill = "red") +
ggplot2::geom_line(linetype = "dashed") +
# Scales
scale_x_continuous(breaks = c(1960:2019)) +
scale_y_continuous(breaks = seq(from = 0, to = 1.10e15, by = 1e14),
labels = scales::number_format(scale = 1/1e12, suffix = "B")) +
labs(x = "Year",
y = "GDP in current local currency [B = Billion in long scale (10^12)]",
title = "GDP of Colombia: 1960-2019") +
# Themes
theme(panel.border = element_rect(fill = NA, color = "black"),
plot.background = element_rect(fill = "#f3fcfc"),
panel.background = element_rect(fill = "#f3f7fc"),
legend.background = element_rect(fill = "#f3fcfc"),
plot.title = element_text(face = "bold"),
axis.text.x=element_text(angle = -90, vjust = 0.5),
axis.title = element_text(face = "bold"),
legend.title = element_text(face = "bold"),
axis.text = element_text(face = "bold"))
# Interactivity
static_plot %>%
plotly::ggplotly(tooltip = "text")In a certain geographical territory \(s\) and in a given period \(t\) there exist \(2\) profit-making enterprises:
Steel enterprise
Car enterprise
The Steel enterprise sells to the Car enterprise steel. Then the Car enterprise uses steel to produce cars an sell them to households located inside or outside the geographical territory \(s\)
In that sense the economy uses steel, machinery and labor, known as inputs of production in the field of economics , to produce a final good represented by cars where the production is divided between the owners of the \(2\) enterprises who perceive an income represented by profits and the workers who perceive an income represented by wages.
In this simple economy we do not have non-profit institutions and a government that imposes taxes to offer services and goods like public education in \(t\) because the only goods produced are steel and cars.
We also assume that production doesn’t accumulate in \(t\). Therefore steel is used entirely to produce cars and all the cars are consumed by households located inside or outside the geographical territory \(s\). Thus, the profit-making enterprises don’t accumulate inventories and distribute all the profits to the owners of the \(2\) enterprises in \(t\).
Finally we assume that households inside the geographical territory \(s\) only consume cars produced inside the geographical territory \(s\) and not cars produced outside the geographical territory \(s\) in \(t\). Also, the \(2\) profit-making enterprises don’t buy machines produce outside the geographical territory \(s\) to produce steel or cars in \(t\).
We can have a more realistic economy that have:
Profit-making enterprises that acummulate inventories or don’t distribute all the profits to the owners
Profit-making enterprises that not only produce but pollute the air or the environment
Non-profit institutions that by law are requiere not to distribute profits
Households located inside or outside the geographical territory \(s\) that save part of their income and don’t consume everything or that engage in illegal activities like robberies
Households inside the geographical territory \(s\) that have children and require and education system
Households inside the geographical territory \(s\) that consume goods and services produced outside the geographical territory \(s\)
A government that imposes taxes to offer services like justice and goods like public education and deliver subsidies
And many other aspects not included in this short list but the idea is to explain in a simple way the measurement of GDP.
The above simple economy in a certain geographical territory \(s\) and in a given period \(t\) can be represented in the following way using specific values to be less abstract and expressing every item in specific currency, \(c\), like Colombia pesos (COP):
Steel enterprise
Steel sales to Car enterprise: \(100 \text{ COP}\)
Expenses:
Profits: \(20 \text{ COP}\)
Car enterprise
Revenue from sales of cars: \(200 \text{ COP}\)
Expenses:
Wages: \(70\) COP
Steel purchases to Steel enterprise: \(100\) COP
Profits: \(30\) COP
If you add in monetary terms the production of both companies you get a total of: Production Steel enterprise \(+\) Production Car enterprise \(=\) Steel sales to Car enterprise \(+\) Revenue from sales of cars \(= 100 \text{ COP} + 200 \text{ COP} = 300 \text{ COP}\)
If the production of the Steel enterprise and the Car enterprise is added, the value of steel is being added two times.
It is necessary to eliminate at some stage of the production process the value of steel in our example
GDP is the sum of value added in a certain geographical territory \(s\) during a given period \(t\) expressed in a local currency \(c\).
In the field of economics the value added is the value that is added at each stage of production. It is defined as the difference between the Production in expressed in a Monetary Terms (PMT) and the Consumption of Intermediate Goods (CIG).
The PMT is simply the production expressed using a local currency \(c\)
The CIG is the monetary value expressed using a local currency \(c\) of inputs that are completely transformed and depleted in the production process and that are used to produce other products.
Example of inputs that are not part of the CIG:
Wages paid by a profit-making enterprise to its workers: labor can be used for several periods and although its value is affected in the periods close to the age of retirement of individuals, is not fully consumed in the production process.
Assets that belong to a profit-making enterprise and depreciation (consumption of fixed capital): assets are durable goods that can be used for several periods and although their value is affected by physical deterioration, foreseeable wear and accidental damage it is important to remember that depreciation (consumption of fixed capital) is included and not deducted in the measurement of GDP.
Measuring GDP as the sum of value added using our simple economy:
Steel enterprise
PMT: \(100 \text{ COP}\)
CIG: \(0 \text{ COP}\) (Wages are not part of CIG)
Value added: \(100 \text{ COP} - 0 \text{ COP } = 100 \text{ COP}\)
Car enterprise
PMT: \(200 \text{ COP}\)
CIG: \(100 \text{ COP}\) (Wages are not part of CIG)
Value added: \(200 \text{ COP} - 100 \text{ COP } = 100 \text{ COP}\)
GDP
GDP is the sum of the incomes perceived by individuals in a certain geographical territory \(s\) during a given period \(t\) expressed in a local currency \(c\).
In that sense the GDP can me measure as the sum of the different incomes that individuals perceive like profits and wages
Measuring GDP as the sum of incomes using our simple economy:
Steel enterprise
Workers income: \(80 \text{ COP}\)
Owners income: \(20 \text{ COP}\)
Car enterprise
Workers income: \(70 \text{ COP}\)
Owners income: \(30 \text{ COP}\)
GDP
GDP is the value of all the final goods and services produced in a certain geographical territory \(s\) during a given period \(t\) expressed in a local currency \(c\) and classified according to their use.
We can classify the uses of final production in the following items which corresponds only to goods and services produced inside a certain geographical territory \(s\) during a given period \(t\) expressed in a local currency \(c\):
Households and non-profit institutions final consumption expenditure: \(C_s^c(t)\)
It simply indicates that part of the production is consumed by households which includes the expenditures of nonprofit institutions serving households.
Gross capital formation: \(I_s^c(t)\)
It simply refers to additions of fixed assets to the economy plus net changes in the level of inventories.
In this item purchases of dwellings by households are included becauses dwellings are considered additions of fixed assets to the economy.
Inventories refers to stocks of goods held by enterprises to meet temporary or unexpected fluctuations in production or sales and work in progress (in our simple economy “work in progress” will be for example the case of a car that it is not totally finished by Car enterprise at the end of period \(t\)).
General government final consumption expenditure: \(G_s^c(t)\)
Exports of goods and services: \(X_s^c(t)\)
In that sense \(GDP_s^c(t) = C_s^c(t) + I_s^c(t) + G_s^c(t) + X_s^c(t)\)
Measuring GDP as the as the value and uses of final goods and services:
\(C_s^c(t) + X_s^c(t) = 200 \text{ COP}\) (It corresponds to the Revenue from sales of cars that are consumed by households or exported)
\(I_s^c(t) = 0 \text{ COP}\)
\(G_s^c(t) = 0 \text{ COP}\)
\(GDP_s^c(t) = 200 \text{ COP} + 0 \text{ COP} + 0 \text{ COP} = 200 \text{ COP}\)
In all the macroeconomic textbooks and data published by statistical organizations it is pointed out that \(GDP = C + I + G + X - IM\) where \(IM\) refers to the imports received from the rest of the world in relation to a certain geographical territory \(s\).
This is consistent with \(GDP_s^c(t) = C_s^c(t) + I_s^c(t) + G_s^c(t) + X_s^c(t)\) if we rewrite this expression as:
\[\begin{split} GDP_s^c(t) & = C_s^c(t) + I_s^c(t) + G_s^c(t) + X_s^c(t) \\ & = C_s^c(t) + C_{rw}^c(t) + I_s^c(t) + I_{rw}^c(t) + G_s^c(t) + G_{rw}^c(t) + X_s^c(t) - C_{rw}^c(t) - I_{rw}^c(t) - G_{rw}^c(t) \\ & = C_s^c(t) + C_{rw}^c(t) + I_s^c(t) + I_{rw}^c(t) + G_s^c(t) + G_{rw}^c(t) + X_s^c(t) - (C_{rw}^c(t) + I_{rw}^c(t) + G_{rw}^c(t)) \\ & = C^c(t) + I^c(t) + G^c(t) + X^c(t) - IM^c(t) \end{split}\]
Where:
\(C_{rw}^c(t)\) is the Households and non-profit institutions final consumption expenditure with goods and services produced in the rest of the world, \(rw\).
\(C^c(t) = C_s^c(t) + C_{rw}^c(t)\) is the _ Total Households and non-profit institutions final consumption expenditure__
\(I_{rw}^c(t)\) is the Gross capital formation with goods and services produced in the rest of the world, \(rw\).
\(I^c(t) = I_s^c(t) + I_{rw}^c(t)\) is the Total Gross capital formation
\(G_{rw}^c(t)\) is the General government final consumption expenditure with goods and services produced in the rest of the world, \(rw\).
\(G^c(t) = G_s^c(t) + G_{rw}^c(t)\) is the Total General government final consumption expenditure
\(IM^c(t) = C_{rw}^c(t) + I_{rw}^c(t) + G_{rw}^c(t)\)
Using data with annual periodicity provided by the Departamento Nacional de Estadística (DANE) from Colombia expressed in Colombian Pesos (COP) for the years \(2005-2019\) we show the behavior of the GDP using the three equivalent ways to measure production
Blanchard, Olivier. 2017. Macroeconomics. 7th ed. Boston: Pearson.
Lequiller, François, and Derek Blades. 2014. Understanding National Accounts: Second Edition. OECD. https://doi.org/10.1787/9789264214637-en.
International Standard Industrial Classification of All Economic Activities↩︎